Food preparer



7 Dec. 8, 1936. E. F. MARTINET I 2,063,692

' FOODPREPARER Filed Oct. 6, 4 Sheets-Sheet lr s; 1936. E. F; MARTINETV 2,0 3,692

FOOD PREPARER Filed on. e, 1933 4 Shets-Sheet 2 El/ymel/i/Mhel Fig.9

Dec. 8,1936. E. F. MARTINET 1 FOOD PREPARER Filed 001;. 6, 1933 4 Sheets-Sheet 3 Dec.-8, 1936. I v v E. F. MARTINET 7 2,053,592

FOOD 'PREPARER Filed Oct.- .6, 19:53 4,Shets-Sheet 4 170 gmnmtoo Mile/ Maribel Patented Dec. 8, 19362 Eugene F.

The P. A. Geier Company, corporation of Ohio I Martinet, Cleveland, Ohio, assignorto Cleveland, Ohio, a

Application October 6, 1933, Serial 110,692,483 15 Claims. (CL ass-'84) The invention relates to food preparing devices'cr appliances for mixing, beating. whip- P 8. juicing, straining, slicing, shredding. grinding, chopping, pureeing, and otherprocessing of foods and foodstufis; and more particularly the invention relates to a food preparer for such purposes of a typein which the operating mechanism therefor is housed in a base, in which a bowlvis'mounted on the base for receiving and processing foods and ,foodstufl's, and in which food preparing elements are mounted above and/or within the 'bowl and are detachably. connected with the operating mechanism through a central tubular sleeve with which the bowlis .7 provided.

.Churns, ice cream freezers, egg heaters and mixers have been made in which mixing or beating elements operating in a bowl are driven'bya drive mechanism which connects through a central tubular sleeve of the bowl. However, these prior types of devices have either been limited in use for one purpose only, or have involved the use of a planetary gear train-for driving the heaters thereof; and the difllculties which have been experienced in their manufachire or use have been so numerous that they are all believed to be impractical.

It is therefore an object of the present invention to provide an improved food preparing device of the character described which avoids the diillculties which have been experienced in the manufacture, operation or use of prior devices having the same general arrangement of cprimary elements, and on which a large numberof food processing or treating elements. may be interchangeably operated almost instantaneously without the use of bolts, screws or otherfastening means or special device adapters, supports, connectors, reduction gears and the like.

It is a further object of the .present invention to provide, an improved food preparing device in which all oil and grease for lubricating the driving mechanism thereof is at all times kept" it is absolutely-- below the mixing bowl so that impossible for oil or grease ever todrop into. or become mixed with food beingprepared in the mixing bowl.

It is likewise an objectof the present invention to provide an improved food; preparing device which hasia very low center of gravity located either within or below the mixing bowl thereof, depending upon the attachment utilized, so that the. device is not top heavy and will not tip over duringuse. Moreover, it is an object of the present invensanitary or which tion to provide an improved food preparing de- 'vice which isrigid, compact and simplified m construction and in which a multiple speed motor is utilized for driving various food preparing elements or attachments at proper speeds 5 for carrying out their respective operations.

It islikewise an object of the present invention to provide an improved food preparing de-- vice in which the mixing 'bowl thereof may be rotated or may be held in non-rotative position, 10 depending upon the operation being carried out therein.

'It is likewise a further object oi. the present invention to provide a food preparing device with with which either mixing, beating or whipping operations may be speedily, satisfactorily and efficiently carried out. a

It is likewise a further object of thepresent invention to provide an improved food preparing 20 device in which the parts thereof that come in contact with food may be readily removed or detached from the remaining parts of the. device for being washed and kept in 'a sanitary condition, and subsequently replaced, .without -the use of bolts, screws and the like, or the special operation of catches, locks or the like.

, Similarly, it is an object of the present, invention to provide an improved food preparing device in. which there are no cavities, crevices, pockets and. the like, where food may enter or collect, by accidental spilling of food or food ingredients, which would render the device unwould affect the operation of the driving or driven parts or mechanism thereof.

And finally, it is an object of the present invention to provide an improved food preparing -device in which. safety devices are-incorporated f 'so'that' the operator cannot become accidentally or otherwise injured in operating the various 4 grinding, shredding, slicing and beating attachments. 7 e

These and other objects may beobtained'by "the parts, elements, apparatus, devices, arrangements and combinations, preferred embodiments of which are shown in the drawings, and are hereinafter described in detail and claimed, which may be stated in general terms as including in a food preparer having a base, an integral housing mount'dwithin the base and having a sleeve projecting vertically upwards from and through the base, amultiple speed motor operatively mounted in the housing, a shaft journalled in said sleeve, reduction gearing journalied in the housing forming an operative connection be- 56 an improved type of beater element construction 15 l tween the motor andshaft, a switch for the motor mounted in the base, a mixing bowl provided with a central tubular sleeve journalled on said Figure 1 is a. perspective view of the improved I food preparing device with certain parts removed;

Fig. 2 is a longitudinal sectional view of the improved food preparing device shown in Fig. 1, taken on the line 22, Fig. 1;

Fig. 3 is a fragmentary expanded perspective view, partly in section, of certain of the drive connection parts shown in Fig. 2;

Fig. 4 is a perspective view of the improved washer bearing for the mixing bowl shown. in Fig. 2;

Fig. 5 is a fragmentary view, partly in section, of certainof the parts of Fig. 2 shown in another position;

Fig.- 6 is a perspective view of one of the improved beating elements;

Fig. 7 is a, plan sectional view taken on the line 11, Fig. 5;

Fig. 8 is a sectional view of one of the bars of the improved beater taken on the line 8-8, Fi 6;

Fig. 9 is a fragmentary elevation, with parts in section, of the improved food preparing device shown in Fig. 1 equipped with juicing and straining attachment devices;

Fig. 10 is a view similar to Figs. 2 and 9, showing the improved food preparing device equipped with slicing and safety slicing hopper atta'chment devices;

Fig. 11 is a plan view of the parts shown in Fig. 10 with certain parts thereof in section as.

on the line Fig. 10;

Fig. 12 is an elevation section of certain of the parts shown in Figs. 10 and 11, taken on the line Fig. 13 is a perspective view of the pusher and feeder shown in Figs. 10 and 11;

Fig. 14 is a fragmentary side elevation showing the releasable connection between the mixing bowl and safety hopper plate, looking inthe direction of the arrows |4|4, Fig. 11;

Fig.. 15 is an enlarged fragmentary sectional view through the knife blade of the slicing plate shown in Figs. 10, l1 and 12;

Fig. 16 is a view similar to Figs. 2, 9 and 10, showing the improved food preparing device equipped witha meat grinder;

Fig. 17 is a fragmentary sectional view of a.

knife sharpening attachment for the improved food preparing device;

Fig. 18 is a side elevation of the partsshown in Fig. 17 and Fig. 19 is a plan view of the parts shown Figs. 17 and 18.

Similar numerals refer to similar parts throughout the various figures of the drawings.

Referring more particularly to Figs. 1 to 8, inelusive, wherein the improved food preparer, together with the improved mixing, beating and whipping attachment device is shown, the food preparer generally indicated at 20 includes a base 2|, preferably provided with rubber feet 22 for supporting the improved device upon a table or other convenient place of use.

A housing generally indicated at 23 is connected to the base by screws 24, and the housing23 preferably comprises an integral casting which includes the gear case portion 25, the-motor housing portion 26 and the sleeve member 21. The member 21 projects vertically upwards from the gear case portion through an aperture 28 in the base 2|.

The motor housing portion 26 has a motor end cap 29 attached thereto, and a multiple speed motor is mounted within the motor housing and cap 26--29, the motor shaft 30 of which is provided with worm threads 3|.

The food preparing device 20 is also provided with suitable wiring 32, having a usual plu'g (not shown) for being attached to any suitable source of electric power; and the wiring 32 may lead to a control switch, the operating member 33 of which is shownin Fig. 1, from which switch suitable wires 34 may lead to the motor within the motor housing 26--29. The motor and switch constructions are usual constructions and therefore are not illustrated in detail.

Oilless bearings 35 and 36 are mounted within and adjacent to the extremities of the sleeve 21, and a worm gear shaft 31 is journalled in said bearings 35 and 36, the upper end 31a of which projects upward beyond the end of the sleeve 21 and the lower end 3112 of which projects into the gear c'ase portion 25 of the integral housing 23.

A preferably linen micarta worm gear 7 38, meshes with the worm 3| and is provided with a hub 39 and mounted by the pin 40 on the lower. end 31b of the worm -gear'shaft 31. v

The lower end 311) of the shaft 31 is also provided with an axial recess 4| in which is locateda ball bearing 42 that is held in position by peening over the edge of the recess after inserting the ball therein. An adjusting screw 43, located directly below the ball 42 and axially of the shaft adjustably locating the shaft 31 in the proper position. e

The gear case 25 may be filled with grease and since the bearings 35 and 36 .are oilless bearings,,all grease and lubricant for the motivating parts of the improved food preparer are located below the top of and within the base 2|.

. -By providing the integral housing 23, which includes in one piece the gear case 25, the motor case 26 and the sleeve 21, the parts thus far described may be readily machined and assembled in their proper and correct relation without play between parts; and-great rigidity is imparted to the motivating parts of the device. Moreover, the bearings 35 and 36 in both being rigidly mounted in the sleeve 21, may be readily located .in axial alignment so that the shaft-31 driven by the motor will always run true on center.

The upper end 31a of the shaft 31 is also provided with an axial recess 46 within which is located a ball bearing 41 that is held in position by peening 61761 the edge of the recess 46 after inserting the ball therein, for a purpose which will hereinafter be described.

A mixing bowl 48 having an outer annular wall 49, which merges into a lower toroidal shaped bottom wall 50 that terminates inwardly and upwardly in a vertically extending central tubular sleeve 5|, is telescoped over the sleeve 21 as best '15 faces of the down corrugations 58 of the thrust ring 54 rest on the sleeve step 55, while the lower surface of the bowl collar 52 rests on the upper surfaces of the corrugations 51 of the ring 54 (Fig.

shown in Fig. 2. The mixing bowl '48 is also provided with a downwardly extending collar 52, which is substantially in continuation of its central sleeve and the collar 52 is joumalled about .the external circumferential bearing portion 53,

. of the sleeve'21, while the lower end of the collar 52 bears on a split anti-friction thrust ring 54interposed between the collar 52 and the annular step 55 of the sleeve 21.

The split' anti-friction thrust ring 54 is best shown in Fig. 4 wherein the split is indicated at 58 and the up and down corrugations 5] and 58 1 respectively thereof are illustrated.

When the mixing bowl 48 is telescoped over the sleeve 21, as shown in Fig. 2, the under sur- 9). The ring 54 is preferably made from strip steel, while the bowl 48 may be made of aluminum or an aluminum alloy, and the sleeve 21 may be a die cast alloy. I

Thus, when the bowl 48 rotates in use, the aluminum-steel contact between the bowl and thrust ring, 54 provides a noiseless anti-friction v sliding contact; and the sinuous contour of the ring 54- provides suflicient springiness' to compensate for variations in weight or machining of the relatively rotatable parts under thrust loads. The sleeve 21 is also provided with an external annular upper bearing surface 59 spaced from the bearing portion 53 and above the base 2| slot 65 in the base 2|, as best shown in Figs. 1

and 2 for a purpose which will be hereinafter. described; With the lever 82 in the position shown in Figs. land 2 of the drawings, the bowl is 56 the upper end-31a of the shaft 31, is provided'with free to rotate.

Referring. more particularly to Figs 2 and 3,

a diametrically disposed drive pin 88 and the upper end of the sleeve v2| is notched out at diametrically disposed places indicated at 81 for purposes which will also be hereinafter described. Y

f The parts thus far-described are in their usual positions and assembled relationship as when a food preparing operation is about tobe carried out. .If it isdesired to carry. out a mixing,.beating or whipping operation inthe mixing ,bowl

48, the improved mixing, beating and whipping attachment device generally indicated at 88 in' Figs. 1. to 8, inclusivejis utilized.

The improved mixing, beating and whipping attachment device 88 preferably includes-a beat-'v er holding housing 69 having a cover 10, and the housing 69 is preferably provided with an integral central downwardly projecting tubular sleeve 1| within which is pressed a tubular 011-. less bearing 12. e

.A beater drive gear journalling the'tubular hub 14 thereof within the bearing 12; and the lower end 14a of thetubular or cylindrical sleeve or hub 14 i -p1f0- vided with slightly helical notches 15 whilethe 13 is located"within thef housing 69 in which no lubricant is used, by

lower end of the beater housing sleeve II is provided with diametrically disposed downwardly projecting ears 18.

Moreover, the inner diameter of the sleeve hub 14 is preferably the same as the outer diameter of the upper end 31a of the shaft 31 so that the sleeve hub may be telescoped thereover; and

anaxially movable adjusting screw 11 is thread-.

ed through a boss 18 in the beater holder cover 10 for resting upon the ball 41 when the beater the outer ends of the pin 86 and with the ears I8 of the sleeve engaged in the notches 81 of the sleeve 21.

The beater holder housing 89 is also provided with a plurality of diametrically disposed openings 19, and opposite'the. openings-19 axially thereof are located bosses in which pins 8| provided with annular recesses 82 (Figs. 5 and '7) are fixed- The pins 8| provide means for releasably mounting the improved beaters generally indicated at 83, and best shown in Fig. 6, upon the beater holder.

Each beater 83 preferably comprises an integral preferably die casting, including a gear portion 84 a shaft portion 85, a collar portion 86 interposed between the gear and shaft portions, and beater bars 81 extending outwardly from the shaft portion 85, thence downwardly .and inwardly to a meeting point 88.

The gear, shaft and collar portions'84-85-86 are provided with a tubular bore. 89 for releasably telescoping the heaters 83 over the beater holder pins 8| (Figs. 2, 5 and 7). r

. Each beater 88 is provided with a small circumferential groove 90 between the gear portion-84 and flange portion 86 thereof;- and the groove 99 may preferably be discontinuous as at, 9| for a purpose to be presently described.

Each beater 83 is also provided with a radial (opening-92 which is shouldered at 93 and leads from the groove 90 to the bore 89 thereof; and

a shouldered pin 94 having a preferably rounded innerend 95 is slidably mounted within the opening 92' and held therein by a split wire ring 96, so that when the beater83 is mounted on the beater holder pin. 8|, the inner rounded end 95 of the'shouldered pin 94 engages in the groove 82 of the pin 8| to normally hold the beater in position.

g However, if the beater 83 is grasped by one hand, and the holder 69 is grasped by the other, an axial pull on the beater 8,3 is suflicient to cause the shouldered pin 94 to move outward in the hole 92 against the'pressure of the spring 98, so that the beater 83 maybe removed from 'its mounting pin 8| for being washed.

The beater-bars8'l are preferably substantially triangular in shape, as best shown, in Fig. 8,

surfaces terminating preferably in flat corners 81b fr m which the flat surfaces 81:: extend angularly inward to the sharp corner 81d.

.by telescoping theouter annular edge portion 98 of the cover 9'|- within theupper shouldered periphery 99 of the mixing bowl 48.

holder is telescoped over the end 31a of the shaft 31, with the notches 15 thereof engaging for a purpose which will be hereinafter described; the outer surfaces 81a being preferably arcuate The improved juicing. and-"strairii n g attachments for the improved food preparer 28 are generally shown. in Fig. 9 andinclude the juice strainer I and the juice reamer or extractor IOI. The juice strainer I00 preferably includes an annular sidewall I02, a perforated bottom wall I03, and an inner tubular sleeve I04 extending upwards from the bottom wall I03 and terminating in an inturned annular flange I05.

The juice extractor I0! preferably includes a preferably porcelain reamer I06 provided with an internal socket I01 in which the head I08 of the reamer shaft I09 is cemented at H0. The shaft I09 isprovided with an internal bore III arranged to fit over or telescope the upper end 31a of the shaft 31; and the lower end of the shaft I09 is preferably provided with diametrically' disposed notches II2 by means of which a driving engagement between the shaft 31 and the shaft I09 is established when the notches H2 engage the outer ends of the drive pin 66.

The improved slicing and shredding attachments are shown in Figs; 10 to 15, inclusive, and

include the cutter plate H3 and the combined cover and safety feeder generally indicated at I I4. The cutter plate I I3 is provided with a central hub II5 having a handle portion H6 and a sleeveportion III, which may be telescoped over the upper end-31a of the shaft 3'I with its diametrically disposed notches II 8 in engagement with the ends of the drive pin 66. The handle portion II 6 of the hub IE5 is preferably, internally threaded for receiving an axially movable adjusting screw I I9, the lower end of which rests on the ball 41 when the slicing plate is positioned on the end 31a of the shaft 31. Thus, the screw I I9 provides means for adjusting the position of the plate H3 relative to the other parts of the device.

As shown in Figs. 10, 11, 12 and 15, the slicing plate ,3 is provided with a blade I20 struck up from the plate, it being understood that a plurality of different slicing plates may be supplied with the improved food preparer, each having notch blades for shredding rather than slicing.

The combined cover and safety feeder H4 utilized whenoperating slicing or shredding plates, includes a 'cover plate, I22 preferably provided with a downturned 'peripheralfiange I23 for telescoping over the upper end portion 99 of' the mixing bowl 48; and the flange I23 is preferably provided with diametrically disposed bayonet locking slots I24 (Fig. 14) for locking engagement with lugs I25 provided on the upper end 99 of the bowl 48, whereby the cover plate and safety feeder attachment may be secured and locked to the mixing bowl.

The cover plate I22 also is preferablyprovided with an opening I26, one portion of which may terminate in a downturned stop bar I21 and another portion ofwhich may terminate in a safety cam I28, for purposes which will be hereinafter described. A hopper I29 is secured to the plate I22, as by riveting at I30, extending upwardly from the opening I26, and a feeder generally indicated at I3I may be inserted into the hopper I29 for pressing a vegetable I32.or the like,-against the cutter plate '3 so that rotation of the plate H3 cuts slices I32a from the vegetable I32.

The feeder I3I preferably comprises an inner member I33 and an outer member; and the outer member preferably includes a feeder tube I34, an

upper plate I35 secured at I36 to-the upper end of the tube I34, and a lower plate I31 secured at I38 to the lower end of the tube I34.

The inner feeder member I33 is preferably a wooden bat having a handle portion I39, a tubular he'ad I48. Castintegrally withthe grinder .body

I45 is a sleeve portion I49 within which is provided bearings I50 in which is journalled a sleeve shaft I5I. v

The upper end ofthe shaft I BI is provided with a spur gear I52 that meshes with the gear I53 mounted at I54 upon the end of the grinder screw shaft I55. The lower end of the sleeve I5I is provided with an internal bore I 56 which tele scopes overthe upper end 31a .of the shaft 31, diametrically disposed notches I 51 being provided "in the lower'end of the sleeve I5I for engagement with the ends of the drive pin 66.

The lower end of the outer sleeve I49 is also provided withlugs similar to the lugs 16, for

' being received in the notches 61 of the sleeve 21, to hold the meat grinder body 145 against rotation. The gears I52 and I53 are preferably enclosed by a cover plate.l58 held in place by a thumb screw I59, which may also be utilized as a handle for positioning the improved meat grinder or chopper M4 in place on the improved food preparer.

The food preparer may also be equipped with a knife sharpener or grinder generally. indicated at I60 in Figs. 17, 18 and 19; and the improved grinder I60 may comprise a shell I6I having a sleeve portion I 62 projecting therefrom within which is mounted a. bearing I63 journalling the abrasive wheel shaft I64. The sleeve I62 is preferably provided with lugs I65 that fit into the notches 61 of the sleeve, 21, while the shaft I64 is provided with an internal bore I66 for telescoping over the upper end 31a of the shaft 31, the lower end of the shaft I64 being provided with diametrically disposed notches I61 by means of which a driving engagement is established with the outer ends of the drive pin 66.

An abrasive wheel I68 is mounted at I69 on the upper end 0f@ the shaft I64 and an adjustable guard rest I is mounted at I1I on the grinder body I6I; so that the blade of a knife I12, indicated in dot-dash lines, maybe drawn across the rotating abrasive wheel I68 for sharpening the knife edge thereof.

In the operation and use of the improved food preparer 20, themixing bowl 48 is first telescoped over the drive shaft sleeve '21. .For-mixing, heating or whipping, the heaters 83 are telescoped over their stub shafts or pins 8| andthe beater holder 68 is then telescoped over the upper end 31a of thedrive shaft 31, when the sleeve lugs 16 engage in the notches 61 'to maintain thev beater holder 68 against rotation, and the notches 15 engage the clutch pin 66 for transmitting driving motion from the shaft-31 through the sleeve hub 14, the gears 13 and 84 to the heaters 83. Materials to be mixed are then placed in the bowl and a cover 91 positioned as shown in Fig. 2, whereupon the switch lever 33 may be moved tothe desired speed for operating the heaters.

When a mixing, beating or whipping operation isfbeing carried out, the'bowl 48 is permitted to amounts of material may be mixed, beaten or whipped in the mixing bowl 48; and practically every particle of the material must come in contact with the heaters as they revolve, the beating of the material causing the bowl to revolve.

I have discovered that the peculiar more or less triangular shape of the beater bars 81 enables one style of beater 83 to be used for either a mixing or a beating, or a whipping operation; as distinguished from other types of mixing elements which require different types of heaters for carrying out a mixing or a beating or a whipping operation.

Moreover, the cast integral construction of the heaters 83 renders the heaters rigid so that they hold their .shape and closely follow the contour of the bowl. Thus, the beater elements 83 have a longer life and may be more readily kept clean and 84; and the improved releasable lock for an eiiicient means for locking the heaters 83 in the heaters, bestshown in Figs. 5 and 7, provide operative position, but permitting their removal from the beater holder for being washed without the manual operation of any catches, thumb screws or the like.

The adjusting screw 13 is providedfor supporting the entire weight of the beater holder 68 and heaters 83 driven thereby upon the drive shaft 31, so that the beater holder is maintained in position independently of the clutch parts 66 and 15 and driven independently of the mixing bowl 48. The screw 11.15 originally adjusted by themanufacturer so as to bring the lower contour of the heaters 83 closely adjacent to the lower bowl wall 58, whereby very small amounts of material may be satisfactorily mixed, beaten or whipped. As wearof the parts may occur due to long continued or hard use, the

position of the adjusting screw 11 may be changed to properly position the heaters 83 with respectto themixing bowl 48 without releasing engagement between the clutch parts 66 and 15.

In utilizing the improved juicing and straining attachments, the bowl 48 is positioned on the improved food preparer as shown in Fig. 9,

the strainer Inn is then positioned over the upper end of the bowl sleeve 5|, and the juice reamer II is telescoped over the upper end 31d of the drive shaft 31, as shown in Fig. 9. The motor is then started and fruit is pressed firmly against the reamer whereby the juice therefrom passes through the strainer and into the mixing bowl 48. As is the case with the improved beater attachment, the load of the juice reamer I III and of the fruit pressed thereagainst is carried directly by the drive shaft 31 independently of any of the other parts of the device.

In operating the improved slicing, shredding and safety feeding attachments, the mixing bowl 48 is positioned on the device 20 as before, the bowl is locked against rotation by moving the lever 62 to the position shown in Fig. 10 of the.

drawings and the desired slicing or shredding plate H3 is then mounted on the .upper end 31a of the drive shaft 31. The cover plate I22 is then locked to the bowl as shown in Figs. 10, 11, Hand 14; and is thereby held stationary. Cabbage, potatoes, and the like, may then be introduced into the hopper I28, and the feeder I3l pressed against the same 'so that a slicing or shredding occurs upon rotation of the shaft 31.

- downward with the inner feeder I33.

' which drives the cutter plate.

The improved safety cam I28 is pro'vided so that if the cutter plate is adjusted at too high a position, or if the plate is not properly positioned, the knife blade will first ride along thecam I28 and will miss the cutter bar I21, but will cause the cover I22 and the bowl 48 to which it is locked to be raised.

In operating the meat grinder, the bowl 48 is positioned as aforesaid and the meat grinder with its sleeve shaft I5I telescoped'over and in driving engagement with the upper end 310. of

the shaft 31 whereby operation of the shaftv .drives the grinder. shaft I55 to chop or grind meator food and extrude the same through the squeezer head I48 into the mixing bowl. The

[mixing bowl may be locked or free to rotate -as or chopper I44 is positioned as shown in Fi 16 desired, while the entire load of the food grinder 'is-carried directly by the sleeve 21.

In operating the'improvedknife grinder, the

, sleeve I64 thereof is telescoped over the upper.

end 31a of the drive shaft 31 whereby rotation of the shaft 31 rotates the abrasive wheel I68. When operating the improved knife sharpener or grinder, it is probably undesirable tohave the mixing bowl in position thereunder.

Accordingly, the improved food preparer provides for the convenient, ready and easy attachment of.various and sundry food preparing .de-.- vices for. carrying outmixing," beating, whipping, juicing, straining, slicing, shredding, grinding, and chopping operations and other processing of food and foodstuffs bymerely telescoping the sleeve of the particular processing device -or attachment over the drive shaft of the improved food preparer, which drive shaft in most cases carries the entire weight of or load of the attachment andof the operation carried out thereby, without the use of extra parts or the adjustment or fastening of screws or bolts.

Moreover,each and all of therotary attachments are supported by or operated independently of the bowl, and the driving connections are covered by the upper end of the bowl sleeve which is located above the driving clutch parts; the improved safety feeder not being rotated but being held against rotation by locking the same to the bowl and locking'the bowl. a

In addition, because the upper-end 31a of the shaft 31 projects above the 'upper. end of th z sleeve', 21, any food material which may be spilled into the bowl sleeve 5| during use of the food preparer, may be readily removed and all parts cleaned upon removal of the mixing bowl for washing. And finally, the improved food preparer and all of the parts and attachments thereof are compact, rigid and simplified in construction so that they may be kept clean and sanitary; the entire device has a very low center of gravity regardless of the attachment utilized and therefore is not being subject to being tipped over; all oil and grease is at all times kept below the mixing bowl so that it is impossible to introduce the same into the food being prepared; and the improved food preparer has an attractive and distinctive appearance.

I claim:- p i. In a food preparing device, a base, driving -mechanism mounted within said base and including a tubular housing sleeve projecting vertically upwards from said base and a drive shaft journalled in said sleeve, a mixing bowl having a central tubular sleeve rotatably mounted on andremovably telescoped over said housing sleeve, said housing sleeve being provided with an an- .nular step below the lower end of said mixing bowl sleeve, and a corrugated ring washer interposed between said housing step and the lower end of said mixing bowl sleeve to form a hearing for the bowl sleeve.

2. In a'food preparing device, a base, driving mechanism mounted within said base and including a tubular housing sleeve projecting vertically upwards from said base and a drive shaft 35 journalled in said sleeve, a mixing bowl provided with a central tubular. sleeve rotatably mounted on and removablytelescoped over said housing sleeve, said housing sleeve beingprovided with an annular step below the lower end of said mixing bowl sleeve, and a corrugated resilient split ring washer interposed between said housingstep and the lower end of said mixing bowl sleeve to form a bearing for the bowl sleeve.

3. In a food preparing device, a base, driving mechanism mounted within said base and in-- cluding a sleeve projecting verticallyupwards from the base, a drive shaft journalled in said sleeve, amixing bowl having a central tubular sleeve removably telescoped over and rotatably 50 mounted on said housing sleeve, stop-means on the lower wall of said bowl adjacent to-said bowl' sleeve, and adjustable locking means mounted on said housing for selective engagement with said stop means for holding the bowl in nonrotative position.

4. In a food preparing d mechanism mounted within 'said base and including a sleeveprojecting. vertically upwards from the base, a drive shaft journalled in said sleeve, a mixing bowl having a central tubular sleeve telescoped over and rotatably mounted-on said housing sleeve, radial ears on the'lower wall of saidbowl adjacent to said bowl sleeve, and a locking lever pivotally mounted on said hous- 65 ing for-selective engagement with said bowl ears for holding thebowl'in non-rotative position.

' 5. In a food prep l g device, a base, driving mechanism mounted within said'base and ineluding a tubular sleeve projecting'vertically upin said sleeve, theupper end ofjsaid drive shaft projecting above j the upperr end of said sleeve and being provided with a clutch part, a' ball mounted in the upper end of said'shaft axially evice, a base, driving wards from said base, a drive shafl journalled thereof, a food processing attachment htwing' a driven sleeve removably telescoped over said shaft end, said driven sleeve having a clutch part. for releasable engagement with said shaft clutch part, and an adjustable member mounted on said attachment axially of its sleeve and rest- 5 ing on said ball, for supporting the load of said attachment directly on said shaft independently of said clutch parts and for adjusting the position of said attachment axially of said shaft.

6; In a food preparing device, a base, driving 10 I mechanism mounted within said base and including a tubular sleeve projecting vertically upwards from said base, a drive shaft journalled in said sleeve, the upper end of said drive shaft projecting above the upper end of said sleeve and being provided with a clutch part, a food processing attachment having a housing provided with a sleeve, a driven sleeve in said housing sleeve, said driven sleeve being removably telescoped over said shaft end and having a clutch part for releasable engagement with said shaft clutch part, and the tubular sleeve and said attachment housing sleeve having interengaging parts holding said attachment housing against rotation when the attachment driven sleeve is rotated by said drive shaft.

7. In afood preparing, device, a. base, driving mechanisni mounted within said base and includ ing a tubular sleeve projecting vertically upwards from said base,a drive shaft journalled 3 in said sleeve, the upper end of said drive shaft projecting above the upper end of said sleeve and being'provided with a clutch part, a. mixing bowl having a central tubular sleeve telescoped over said first mentioned sleeve, a food processing attachment .having a housingprovided with a sleeve, a driven sleeve in said housing sleeve, said driven sleevehavinga clutchpart for releasable engagement with said shaft clutch part',' and said attachment housing and driven 4o sleeves being removably telescoped over said shaft end and within said mixing bowl sleeve, and l the first mentioned sleeve and said housing sleeve having interengaging parts holding said attachment housing against rotation when the attach- 5 ment driven sleeve is rotated by said drive shaft.

8. In a food preparing device, a base, driving mechanism mounted within said base and including a tubular sleeve projecting vertically upwards from said base, a drive shaft journalled in said sleeve, the upper endof said drive shaft projecting above the upper end of said sleeve and being provided with a clutch part, a mixing bowl having a central tubular sleeve telescoped over said first mentioned sleeve, a beating attachment having a housing provided with a sleeve, a driven sleeve in said housing sleeve, said driven sleeve having a clutch part for releasable engagement with said shaft clutch part,"said attachment housing and driven sleeves being removably telescoped over said shaft end and within said mixing bowl sleeve, the first mentioned sleeve and said housing sleeve having interengaging parts holding said attachment housing against rotation, a gear mounted insaid attachment housing on. said from said base, a drive shaft journalled in said sleeve, the upper end of said drive shaft projecting above the upper end of said sleeve and being removabiy telescoped over said shaft end and within-said mixing bowl sleeve, the first mentioned sleeve and said housing sleeve having interengaging parts holding said attachment housing against rotation, a gear mounted in said attachment housing on said driven sleeve, a pin carried by said attachment housing, a. beater element releasably rotatably journalled on said pin and having a pinion in operative engagement with said gear, and an adjustable member mounted in said housing axially of its sleeve and resting on said ball.

10. In a beater attachment construction for a food preparing device, a beater holder, a driven gear rotatably mounted in said heater holder, a pin mounted on said holder having an annular groove therein, a beater element journalled on said pin provided with a pinion operatively engaging said gear, and said beater element being provided with a spring pressed plunger releasably engaging said groove for releasably holding said beater element journalled on said pin in operative position, whereby the beater element may be removed from the holder by pulling the beater element axially of the pin.

11. In a beater attachment construction for a food preparing device, a beater holder, a driven gear rotatably mounted in said heater holder,

there being an opening, in said beater holder, a

pin mounted on said holder axially of said opening, a beater element journalled on said pin and provided with a pinion introduced through said opening into said holder for operatively engaging said gear, a flange on said beater element covering said opening, and said beater element being provided with means releasably engaging said pin for releasably holding said beater element journalled on said pin in operative position, whereby the beater element may be removed from the holder by pulling the beater element axially of the pin.

12. In a food preparing device, a base, an in tegral housing mounted within the base; said base being provided with anopening; said housing including a motor housing portion, a gear hous-' ing portion, and a sleeve portion projecting ver- -tica1ly upwards from the gear housing portion through said opening; bearings rigidly fixed within the ends of said sleeve; a drive shaft journaled in said bearings; adjustable thrust transmitting means interposed between the shaft and housing; said housing sleeve being provided with external spaced circumferential bearing portions above said base; a mixing bowl having a central tubular sleeve rotatably journaled on said circumferential bearing portions and removabiy telescoped over said housing sleeve; said housing sleeve being provided with an annular step below the lower end of said mixing bowl sleeve; and anti-friction means interposed between said housing step and the lower end of said mixing bowl sleeve.

1 3. In a food preparing device, a base, driving mechanism mounted within said base and including a tubular sleeve projecting vertically upwards from said base, a drive shaft journaled in said sleeve, the upper end of said drive shaft projecting above the upper end of said sleeve and being provided with a clutch part, a food processing attachment having a. driven sleeve removabiy telescoped over said shaft end, said driven sleeve having a clutch part for releasable engagement with said shaft clutch part, adjustable means acting between said attachment and said shaft for supporting the load of said attachment directly on said shaft independently over said clutch parts and for adjusting the position of said attachment axially of said shaft, and said adjustable means being operable without releasing engagement between said clutch parts.

14. In a beater attachment construction for a food preparing device, a beater holder, a driven gear rotatably mounted in said beater holder, a pin mounted on said holder having an annular groove therein, a heater element journaled on said pin provided with a pinion operatively engaging said gear, a plunger carried by said beater element, and a resilient split Wire ring pressing said plunger into releasable engagement with said groove for releasably holding said heater element journaled on said pin in operative position.

15. In a beater attachment construction for a food preparing device, a beater holder, a driven gear rotatably mounted in said beater holder, there being an opening in said beater holder, a pin mounted on said holder axially of said opening, a beater element journaled on said pin and provided with a pinion introduced through said opening into said holder for operatively engaging said gear, and said beater element being provided with means releasably engaging said pin for releasably holding said beater element journaled on said pin in operative position, whereby the beater element may be removed from the holder by pulling the beater element axially of the pin.

EUGENE F. MARTINE'IK. 

